JP4854210B2 - Thermal power generation operation management system - Google Patents

Description

  The present invention relates to a thermal power generation operation management system that collects and manages thermal power generation operation data input from a terminal of a thermal power plant and creates a form based on the thermal power generation operation data.

  Power generation systems that supply electricity to support modern society are important. In particular, a thermal power generation system that accounts for about 60% of the current total power generation is important. In a thermal power plant that constitutes a thermal power generation system, a large amount of thermal power generation operation data such as power generation amount and steam temperature is handled when generating power. However, this thermal power generation operation data includes a large amount of data, and there is a problem that it is difficult to efficiently collect and manage such thermal power generation operation data.

  On the other hand, a system for monitoring, inspecting, and maintaining each thermal power plant using these thermal power generation operation data has been proposed (see, for example, Patent Document 1). No management method has been proposed yet.

JP 2003-114294 A

  In view of such circumstances, the present invention provides a thermal power generation operation management system capable of efficiently collecting and managing thermal power generation operation data and easily creating a form based on the thermal power generation operation data. This is the issue.

The first aspect of the present invention for solving the above-described problem is at least one of inputting thermal power generation operation data for creating form data of a thermal power plant and thermal power plant management item data for managing the thermal power plant. A thermal power generation operation terminal, a plant data receiving server connected to the thermal power generation operation terminal via a network, storing the thermal power generation operation data and the thermal power plant management item data, and storing for a predetermined period, and a network An integrated OA server connected to the plant data receiving server, a host computer connected to the integrated OA server via the network and managing the thermal power generation operation data and the thermal power plant management item data, and the network Connected to the host computer and the thermal power generation operation data and the thermal power plant management item A thermal power management DB server that manages data, and a thermal power management that is connected to the thermal power management DB server via a network, manages the thermal power generation operation data and the thermal power plant management item data, and creates the form data The thermal power generation operation terminal includes data registration means for inputting the thermal power generation operation data and the thermal power plant management item data, and the plant data receiving server includes the thermal power generation operation terminal. Data storage means for storing the thermal power generation operation data and the thermal power plant management item data transmitted from a predetermined period, the host computer, the thermal power generation operation data transmitted from the integrated OA server and the A host computer database that stores thermal power plant management item data and a thermal power generation operation data Thermal power operation data registration / correction means for registering and correcting data, and the thermal power management AP server transmits the thermal power management data and the thermal power plant management item data transmitted from the thermal power management DB server. A server-side database for storing data, a power plant management item registration / correction means for registering / correcting the thermal power plant management item data, and creating the form data by extracting the thermal power generation operation data from the AP server-side database The thermal power operation management DB server includes a database server side database for storing the thermal power generation operation data and the thermal power plant management item data transmitted from the host computer, and the AP server side. The thermal power plant management item data stored in the database is stored in the DB server side database. And a data matching means for matching the thermal power plant management item data.

In the first aspect, the thermal power generation operation data and the thermal power plant management item data can be collected and managed more efficiently, and a form can be created more easily based on the thermal power generation operation data.

According to a second aspect of the present invention, in the first aspect, the integrated OA server transmits the thermal power generation operation data and the thermal power plant management item data collectively to the host computer at a predetermined timing, The host computer permits registration / correction of the thermal power generation operation data as necessary from the office general office computer connected to the host computer via the network and managing the host computer within a predetermined period. Outside of the predetermined period, the thermal power generation operation data is allowed to be registered / corrected as necessary from a terminal directly connected to the host computer, and the thermal power operation management AP server in the thermal power generation operations management system, characterized in that it permitted to perform the registration and modification of thermal power plants management item data from a comprehensive OA PC

In the second aspect, the thermal power generation operation data and the thermal power plant management item data can be collected and managed more efficiently.

According to a third aspect of the present invention, in the first or second aspect, the thermal power generation operation terminal, the plant data receiving server, the integrated OA server, the host computer, the thermal power operation management DB.
Server, wherein at least two of the thermal management AP server although the thermal power management system characterized by further comprising an encryption-decryption unit.

In the third aspect, it is possible to transmit and receive thermal power generation operation data and form data more safely.

  According to the present invention, thermal power generation operation data can be efficiently collected and managed, and a form can be created quickly and easily. As a result, power can be generated more efficiently.

  The best mode for carrying out the present invention will be described below with reference to the drawings. The description of the present embodiment is an exemplification, and the configuration of the present invention is not limited to the following description.

(Embodiment 1)
FIG. 1 is a schematic diagram of a thermal power generation operation management system according to Embodiment 1 of the present invention. As shown in FIG. 1, the thermal power generation operation management system 1 of the present embodiment includes a thermal power generation operation terminal 200, a management data collection server 500 connected to the thermal power generation operation terminal 200 via the first network 10, and The thermal power generation operation management server 100 is connected to the management data collection server 500 via the second network 20. The thermal power generation operation terminal 200 is installed in a thermal power plant or the like, and thermal power generation operation data 161 indicating the operation status of the thermal power plant is input from a device installed in the thermal power plant and the first network 10. Is transmitted to the management data collection server 500. The management data collection server 500 temporarily stores thermal power generation operation data 161 sequentially transmitted from the thermal power generation operation terminal 200, and transmits it to the thermal power generation operation management server 100 at a predetermined timing. Yes. Further, when receiving the thermal power generation operation data 161 transmitted from the management data collection server 500, the thermal power generation operation management server 100 stores the thermal power generation operation data 161 in the thermal power generation operation management server 100. Yes. And the thermal power generation operation data 161 stored as needed is extracted and the form data 30 is created.

  Here, the thermal power generation operation management server 100 will be specifically described. As shown in FIG. 1, the thermal power generation operation management server 100 extracts a thermal power generation operation database 161 storing thermal power generation operation data 161, and extracts the thermal power generation operation data 161 from the thermal power generation operation database 160, and forms data 30. And at least a form creation means 120 for creating the data, and in this embodiment, the data update means 130 for inquiring / modifying or updating the thermal power generation operation data 161, the form data 30 and the like are encrypted when transmitted, and Server-side encryption / decryption means 150 that decrypts encrypted thermal power generation operation data 161 and the like, and registered user authentication data 171 such as an ID and a password given to the user by pre-registration. Registered user authentication database 170 to be stored and registration stored in registered user authentication database 170 Based on the user authentication data 171 and the user authentication data 211 transmitted from the thermal power generation operation terminal 200 via the management data collection server 500, the thermal power generation operation data 161 and the like are used via the thermal power generation operation terminal 200. It further comprises user authentication means 110 for authenticating whether or not the user can be used.

  The thermal power generation operation database 160 stores thermal power generation operation data 161. In this embodiment, since the thermal power generation operation data 161 is stored in the thermal power generation operation database 160 in an encrypted state, it is preferable in terms of security. However, the thermal power generation operation data 161 is decrypted before the thermal power generation operation database 161 is decrypted. 160 may be stored. The thermal power generation operation data 161 is, for example, data as shown in FIG. Here, the operation code in FIG. 2 is an ID number assigned to each thermal power generator, and each data is data per day related to the thermal power generator.

  The form creation unit 120 functions to create the form data 30 from the thermal power generation operation data 161. Specifically, for example, one month of encrypted generated power amount data is extracted from the thermal power generation operation database 160, decrypted, and added to calculate monthly generated power amount data. Similarly, monthly usage rate, thermal efficiency, and fuel consumption are calculated. Then, the form data 30 of the monthly power generation result table as shown in FIG. 3 is created. In the present embodiment, the form data 30 is created when requested by the user. However, the form data 30 is created at a predetermined timing and stored in advance in the thermal power generation operation database 160 or the like. May be. As a result, when the form data 30 is requested, the form data 30 can be quickly transmitted.

  The data updating unit 130 functions to inquire / correct or update data such as the form data 30 and the thermal power generation operation data 161. Specifically, for example, the thermal power generation operation data 161 registered in error is taken out, corrected, and stored again after being corrected. Thereby, the data in the database can be managed accurately. In the present embodiment, the data update unit 130 is provided in the thermal power generation operation management server 100, but may be provided in either the thermal power generation operation terminal 200 or the management data collection server 500. However, they may be provided in two selected from the thermal power generation operation management server 100, and may be provided in all three. Thereby, at least one of the thermal power generation operation terminal 200, the management data collection server 500, or the thermal power generation operation management server 100 can inquire / correct or update the thermal power generation operation data 161, and the database Stored data can be managed more accurately.

  The server-side encryption / decryption means 150 encrypts the data when transmitting the form data 30 or the thermal power generation operation data 161 from the thermal power generation operation management server 100 to the management data collection server 500, and also manages the data. When encrypted power generation operation data 161 and the like are transmitted from the data collection server 500, the data is decrypted. By providing the server side encryption / decryption means 150, it is possible to transmit and receive these data safely. Specific examples of the encryption / decryption method include encryption / decryption using DES (Data Encryption Standard), RSA (Rivest-Shamir-Aldleman algorithm), and the like. The public key cryptosystem such as RSA does not need to be transported by a secure route compared to the secret key cryptosystem that performs encryption and decryption with the same encryption key as DES. Management safety can be increased. Note that stronger encryption can be performed by changing those encryption keys at a predetermined timing.

  The registered user authentication database 170 stores registered user authentication data 171 such as IDs and passwords given to users by pre-registration. Examples of the registered user authentication data 171 include biometric authentication data such as an iris, a fingerprint, and a voiceprint in addition to an ID and a password.

  The user authentication means 110 is connected via the thermal power generation operation terminal 200 based on the registered user authentication data 171 stored in the registered user authentication database 170 and the user authentication data 211 transmitted from the thermal power generation operation terminal 200. The user can authenticate whether the user can use the form data 30 or the thermal power generation operation data 161. Specifically, for example, the password transmitted from the thermal power generation operation terminal 200 and the use of data such as the form data 30 already registered in the registered user authentication database 170 and from the thermal power generation operation terminal 200 are permitted. It is determined whether or not the password of the person who is registered matches. As a result, it is possible to determine whether the user can use the form data 30 or the like for each combination of the user and the thermal power generation operation terminal 200. Here, it is possible to authenticate the user more accurately by authenticating using biometric authentication data than by authentication using a password. In the present embodiment, when the user is authenticated, all the data described above can be used. However, the user who can use each data may be limited. Thereby, since the data which can be utilized for every user is limited, when data leaks, the amount of leaked data can be further reduced.

  The thermal power generation operation management server 100 does not need to be special hardware, and may be a general personal computer or the like.

  Next, the thermal power generation operation terminal 200 will be specifically described. As shown in FIG. 1, the thermal power generation operation terminal 200 according to the present embodiment includes a user authentication data input unit 210 that inputs user authentication data 211 and a thermal power generation operation data registration unit that registers thermal power generation operation data 161. 220 and a terminal side encryption / decryption means 250 for encrypting the thermal power generation operation data 161 and the like and decrypting the encrypted form data 30 and the like.

  The user authentication data input unit 210 functions to request input of user authentication data 211 used for authentication of a user who can use the form data 30 and the thermal power generation operation data 161 via the thermal power generation operation terminal 200. Specifically, for example, asking for input of a password, asking for input of iris data via an iris reading device that reads iris data, asking for input of fingerprint data via a fingerprint reading device that reads fingerprint data, Voice print data is obtained through a voice print reading device that reads voice print data.

The thermal power generation operation data registration unit 220 functions to acquire the thermal power generation operation data 161. Specifically, the thermal power operation data registration unit 220 acquires, for example, thermal power operation data 161 manually input via a keyboard, or a temperature sensor, pressure sensor, or SO _x detector provided in a steam turbine or the like. And thermal power generation operation data 161 are automatically acquired from the NO _x detector. When such a device such as a sensor or a detector is used, the thermal power generation operation data 161 can be automatically acquired at a predetermined timing, and the accurate thermal power generation operation data 161 can be efficiently input.

  The terminal side encryption / decryption means 250 encrypts the thermal power generation operation data 161 to be transmitted to the management data collection server 500 and the like, and the encrypted form data 30 transmitted from the management data collection server 500. And thermal power generation operation data 161 are decrypted. Specifically, the same thing as the server side encryption / decryption means 150 mentioned above is mentioned.

  The thermal power generation operation terminal 200 does not need to be special hardware, and may be a general personal computer or the like.

  Further, the management data collection server 500 will be specifically described. As shown in FIG. 1, the management data collection server 500 according to the present embodiment includes data storage means 510 that stores thermal power generation operation data 161 transmitted from the thermal power generation operation terminal 200. The data storage unit 510 functions to temporarily store thermal power generation operation data 161 encrypted using, for example, a RAM, a hard disk, or a DVD formed of a semiconductor element. Such a management data collection server 500 temporarily stores thermal power generation operation data 161 sequentially transmitted from the thermal power generation operation terminal 200 using the data storage means 510, and collectively generates thermal power generation at a predetermined timing. It can be transmitted to the operation management server 100. Although FIG. 1 shows the thermal power generation operation management system 1 when there is one thermal power generation operation terminal 200, in the case of the thermal power generation operation management system 1 including a plurality of thermal power generation operation terminals 200, a management data collection server By using 500, the thermal power generation operation data 161 can be efficiently transmitted to the thermal power generation operation management server 100.

  The management data collection server 500 need not be special hardware, and may be a general personal computer or the like.

  The first network 10 is not particularly limited as long as it can connect the thermal power generation operation terminal 200 and the management data collection server 500, and may be a dedicated line, a telephone line, the Internet, or the like. The second network 20 is not particularly limited as long as it can connect the management data collection server 500 and the thermal power generation operation management server 100, and may be a dedicated line, a telephone line, the Internet, or the like. In the present embodiment, the first network 10 and the second network 20 are separate, but may be the same.

  Next, the operation | movement regarding registration of the thermal power generation operation data 161 of the thermal power generation operation management system 1 which concerns on this embodiment is demonstrated using FIG. FIG. 4 is a diagram illustrating an operation sequence related to registration of the thermal power generation operation data 161 of the thermal power generation operation management system 1 according to the first embodiment of the present invention.

  First, the thermal power generation operation data registration means 220 inputs thermal power generation operation data 161 to the thermal power generation operation terminal 200 (S1). Then, the thermal power generation operation data 161 is encrypted by the terminal side encryption / decryption means 250 (S2) and transmitted to the management data collection server 500 (S3).

  When the encrypted thermal power generation operation data 161 is received by the management data collection server 500, the encrypted thermal power generation operation data 161 transmitted sequentially is transmitted by the data storage means 510 to the management data collection server. 500 is temporarily stored (S4), and then transmitted to the thermal power generation operation management server 100 at a predetermined timing (S5).

  When the encrypted thermal power generation operation data 161 is received by the thermal power generation operation management server 100, the encrypted thermal power generation operation data 161 is stored in the thermal power generation operation database 160 while being encrypted ( S6).

  In this way, the thermal power generation operation data 161 input from the thermal power generation operation terminal 200 is stored in the thermal power generation operation database 160 of the thermal power generation operation management server 100.

  Next, the operation | movement regarding preparation of the form data 30 of the thermal power generation operation management system 1 which concerns on this embodiment is demonstrated using FIG. FIG. 5 is a diagram showing a sequence of operations related to creation of the form data 30 of the thermal power generation operation management system 1 according to the first embodiment of the present invention.

  First, when user authentication data 211 is input to the thermal power generation operation terminal 200 by the user authentication data input means 210 (S1), the user authentication data 211 is encrypted by the terminal side encryption / decryption means 250 (S2). ) And transmitted to the thermal power generation operation management server 100 via the management data collection server 500 (S3).

  When the encrypted user authentication data 211 is received by the thermal power generation operation management server 100, the encrypted user authentication data 211 is decrypted by the server side encryption / decryption means 150 (S4). The user authentication unit 110 verifies the registered user authentication data 171 in the registered user authentication database 170 to authenticate whether the user is permitted to use (S5). If the user is not authenticated, the process returns to step 1 (S1). If the user is authenticated, the fact is transmitted to the thermal power generation operation terminal 200 via the management data collection server 500 (S6). Is displayed on the display screen of the thermal power generation operation terminal 200 (S7).

  When a request for browsing the form data 30 is input to the thermal power generation operation terminal 200 (S8), a message to that effect is transmitted to the thermal power generation operation management server 100 via the management data collection server 500 (S9). Then, the thermal power generation operation data 161 stored in the thermal power generation operation database 160 is extracted by the form creation means 120, and the form data 30 is created (S10). Then, the form data 30 is encrypted by the server side encryption / decryption means 150 (S11) and transmitted to the thermal power generation operation terminal 200 via the management data collection server 500 (S12).

  When the encrypted form data 30 is received by the thermal power generation operation terminal 200, the encrypted form data 30 is decrypted by the terminal side encryption / decryption means 250 (S13), and is transmitted to the thermal power generation operation terminal 200. It is displayed (S14).

  As described above, according to the thermal power generation operation management system 1 of the present embodiment, the thermal power generation operation data 161 can be efficiently collected and managed, and a form can be quickly and quickly generated based on the thermal power generation operation data 161. Can be easily created.

(Embodiment 2)
Although Embodiment 1 demonstrated the form of the basic composition of the thermal power generation operation management system which concerns on this invention, the thermal power generation operation management system of a form as shown in FIG. 6 can also be comprised. FIG. 6 is a schematic diagram of a thermal power generation operation management system according to the second embodiment.

  As shown in FIG. 6, the thermal power generation operation management system 1A according to the present embodiment includes a thermal power generation operation data 1000a for creating the form data of the thermal power plant and a thermal power plant management item for managing the thermal power plant. At least one thermal power generation operation terminal 1100 that inputs data 1000b and the thermal power generation operation terminal 1100 connected via the first network 1010 to store the thermal power generation operation data 1000a and the thermal power plant management item data 1000b and to store predetermined Are connected to the integrated OA server 1300 via the third network 1030, the integrated OA server 1300 connected to the plant data receiving server 1200 via the second network 1020, and the integrated OA server 1300 via the third network 1030. Thermal power generation operation data 1000a and thermal power generation A host computer 1400 that manages the plant management item data 1000b, and a thermal power operation management DB server 1500 that is connected to the host computer 1400 via the fourth network 1040 and manages the thermal power plant operation data 1000a and the thermal power plant management item data 1000b. And a thermal operation management AP server 1600 that is connected to the thermal operation management DB server 1500 via the fifth network 1050 to manage the thermal power generation operation data 1000a and the thermal power plant management item data 1000b and create form data. It has become.

  The thermal power generation operation terminal 1100 includes data registration means 1110 for inputting the thermal power generation operation data 1000a and the thermal power plant management item data 1000b, and the plant data receiving server 1200 includes the thermal power transmitted from the thermal power generation operation terminal 1100. The host computer 1400 includes data storage means 1210 that stores the power generation operation data 1000a and the thermal power plant management item data 1000b and stores them for a predetermined period. The host computer 1400 transmits the thermal power generation operation data 1000a and the thermal power generation transmitted from the integrated OA server 1300. The host computer side database 1410 for storing the location management item data 1000b and the thermal power generation operation data registration / correction means 1420 for registering / correcting the thermal power generation operation data 1000a are provided. AP server side database 1610 storing thermal power generation operation data 1000a and thermal power plant management item data 1000b transmitted from the B server 1500, and power plant management item data registration / correction for registering / correcting the thermal power plant management item data 1000b Means 1620 and a form creation means 1630 for extracting the thermal power generation operation data 1000a from the AP server side database 1610 and creating the form data 1631. The thermal operation management DB server 1500 includes the thermal power transmitted from the host computer 1400. A DB server side database 1510 for storing the power generation operation data 1000a and the thermal power plant management item data 1000b, and a DB server side database 1510 for the thermal power plant management item data 1000b stored in the AP server side database 1610. And a data matching unit 1520 to match the stored thermal power plant management item data 1000b.

  Hereinafter, the thermal power generation operation terminal 1100, the host computer 1400, and the servers 1200, 1300, 1500, and 1600 will be described in detail. Note that the thermal power generation operation terminal 1100, the host computer 1400, and the servers 1200, 1300, 1500, and 1600 described below do not have to be special hardware, and may be general personal computers or the like.

  The thermal power generation operation terminal 1100 is installed in a thermal power generation facility, and includes data registration means 1110 for registering thermal power generation operation data 1000a and thermal power plant management item data 1000b. The data registering unit 1110 functions to acquire the thermal power generation operation data 1000a and the thermal power plant management item data 1000b in the same manner as the thermal power generation operation data registration unit 220 of the first embodiment. The thermal power generation operation data 1000a is, for example, the same data as the thermal power generation operation data 161 of the first embodiment shown in FIG. 2, and the thermal power plant management item data 1000b is, for example, start / stop of the thermal power plant. Data such as achievements and security diaries.

  The plant data receiving server 1200 includes data storage means 1210 for storing the thermal power generation operation data 1000a and the thermal power plant management item data 1000b transmitted from the thermal power generation operation terminal 1100 and storing them for a predetermined period. The data storage unit 1210 functions to store the thermal power generation operation data 1000a and the thermal power plant management item data 1000b as well as the data storage unit 510 of the first embodiment described above and to store it for a predetermined period (for example, 40 days). To do. Since the thermal storage operation data 1000a and the thermal power plant management item data 1000b are stored for a predetermined period by the data storage means 1210, the thermal power generation operation data 1000a and the thermal power plant management item even if each server described later stops. The loss of the data 1000b can be prevented.

  The integrated OA server 1300 is configured to transmit the thermal power generation operation data 1000a and the thermal power plant management item data 1000b transmitted from the plant data receiving server 1200 to the host computer 1400 at a predetermined timing. Since the data is transmitted collectively at a predetermined timing, the data can be transmitted more efficiently.

  The host computer 1400 includes a host computer side database 1410 for storing the thermal power generation operation data 1000a and the thermal power plant management item data 1000b transmitted from the integrated OA server 1300, and thermal power generation for registering and correcting the thermal power generation operation data 1000a. Operation data registration / modification means 1420 is provided. The host computer side database 1410 stores thermal power generation operation data 1000a and thermal power plant management item data 1000b, and the thermal power generation operation data registration / correction means 1420 registers new thermal power generation operation data 1000a. Moreover, it functions to correct the thermal power generation operation data 1000a registered in error. Specifically, for example, new thermal power generation operation data 1000a manually input via a keyboard is stored in the host computer side database 1410, and correct thermal power generation operation data 1000a manually input via a keyboard is erroneously registered. The generated thermal power generation operation data 1000a is replaced. In the present embodiment, since the thermal power generation operation data 1000a can be registered and modified only in the host computer 1400, the consistency of the thermal power generation operation data 1000a can be easily maintained. In the present embodiment, the thermal power generation operation data 1000a is registered and corrected as necessary from a general office OA personal computer connected to the host computer 1400 via the network and managing the host computer 1400 within a predetermined period. It is also possible to permit registration and correction of thermal power generation operation data as necessary from a terminal directly connected to the host computer 1400 outside the predetermined period. Consistency of thermal power generation operation data 1000a is made easier by limiting terminals that can instruct the registration / correction of thermal power generation operation data 1000a and the period during which the thermal power generation operation data 1000a can be registered / corrected. Can be kept in.

  The thermal power operation management AP server 1600 registers the AP server side database 1610 storing the thermal power generation operation data 1000a and the thermal power plant management item data 1000b transmitted from the thermal power management DB server 1500, and the thermal power plant management item data 1000b. Power station management item data registration / correction means 1620 to be corrected, and form creation means 1630 for extracting thermal power generation operation data 1000a from the AP server side database 1610 and creating form data 1631. The AP server side database 1610 stores thermal power generation operation data 1000a and thermal power plant management item data 1000b. The power plant management item data registration / correction means 1620 functions to register new thermal power plant management item data 1000b and to correct the erroneously registered thermal power plant management item data 1000b. Specifically, for example, new thermal power plant management item data 1000b manually input via a keyboard is stored in the AP server side database 1610, and correct thermal power plant management item data 1000b manually input via a keyboard is stored. And the thermal power plant management item data 1000b registered in error. The form creation unit 1630 functions to create the form data 1631 from the thermal power generation operation data 1000a in the same manner as the form creation unit 120 of the first embodiment. The form data 1631 is the same as the form data 30 of the first embodiment described above. In the present embodiment, since the thermal power plant management item data 1000b can be registered and modified only in the thermal power management AP server 1600, the consistency of the thermal power plant management item data 1000b can be easily maintained.

  The thermal power management DB server 1500 includes a thermal power plant stored in the database server side database 1510 for storing thermal power generation operational data 1000a and thermal power plant management item data 1000b transmitted from the host computer 1400, and an AP server side database 1610. Data matching means 1520 for matching the thermal power plant management item data 1000b stored in the DB server side database 1510 with the management item data 1000b is provided. The DB server side database 1510 stores thermal power generation operation data 1000a. The data matching unit 1520 functions to match the thermal power plant management item data 1000b stored in the DB server side database 1510 with the thermal power plant management item data 1000b stored in the AP server side database 1610. Specifically, for example, thermal power plant management item data stored in the DB server side database 1510 in the thermal power plant management item data 1000b corrected by the power plant management item data registration / correction means 1620 of the thermal power management AP server 1600 Match 1000b.

  Next, the first to fifth networks 1010, 1020, 1030, 1040, and 1050 can connect the thermal power generation operation terminal 1100, the host computer 1400, and the servers 1200, 1300, 1500, and 1600, respectively. As long as it is not particularly limited, it may be a dedicated line, a telephone line, or the Internet. Each network may be independent, and some networks may be such that the first network 1010 and the second network 1020 are the same network, and the others are independent networks. May be the same network, or all the networks may be the same network.

  Next, operation | movement of 1 A of thermal power generation operation management systems which concern on this embodiment is demonstrated using FIG. FIG. 7 is a diagram showing an operation sequence of the thermal power generation operation management system 1A according to the second embodiment of the present invention.

  First, when the thermal power generation operation data 1000a and the thermal power plant management item data 1000b are input to the thermal power generation operation terminal 1100 (S1), the thermal power generation operation data 1000a and the thermal power plant management item data 1000b are stored at a predetermined timing. 1 is transmitted to the plant data receiving server 1200 via the network 1010 (S2).

  When the transmitted thermal power generation operation data 1000a and thermal power plant management item data 1000b are received by the plant data receiving server 1200, the thermal power generation operation data 1000a and thermal power plant management item data 1000b are converted into plant data by the data storage means 1210. In addition to being stored in the receiving server 1200 (S3), it is transmitted to the integrated OA server 1300 as needed via the second network 1020 (S4).

  Next, when the transmitted thermal power generation operation data 1000a and the thermal power plant management item data 1000b are received by the integrated OA server 1300, the thermal power generation operation data 1000a and the thermal power plant management item data 1000b are stored in the third network 1030. Are sent to the host computer 1400 at a predetermined timing via S (S5).

  When the transmitted thermal power generation operation data 1000a and thermal power plant management item data 1000b are received by the host computer 1400, the thermal power generation operation data 1000a and thermal power plant management item data 1000b are stored in the host computer side database 1410. (S6). Then, when it is necessary to register new thermal power generation operation data 1000a or to correct thermal power generation operation data 1000a, the thermal power generation operation data registration / correction means 1420 registers new thermal power generation operation data 1000a, Alternatively, the thermal power generation operation data 1000a is corrected (S7), and the thermal power generation operation data 1000a and the thermal power plant management item data 1000b are transmitted to the thermal power management DB server 1500 via the fourth network 1040 at a predetermined timing. (S8). Note that the time when the new thermal power generation operation data 1000a can be registered or the thermal power generation operation data 1000a can be corrected is not particularly limited, and may be appropriately set as necessary.

  When the transmitted thermal power generation operation data 1000a and thermal power plant management item data 1000b are received by the thermal power management DB server 1500, the thermal power generation operation data 1000a and the thermal power plant management item data 1000b are stored in the DB server side database. In addition to being stored in 1510 (S9), it is transmitted to the thermal power management AP server 1600 via the fifth network 1050 as needed (S10).

  Further, when the transmitted thermal power operation data 1000a and thermal power plant management item data 1000b are received by the thermal power management AP server 1600, the thermal power generation operation data 1000a and the thermal power plant management item data 1000b are stored in the AP server side database. It is stored in 1610 (S11).

  In this way, the thermal power generation operation data 1000a and the thermal power plant management item data 1000b are managed by the host computer 1400, the thermal power management DB server 1500, and the thermal power management AP server 1600.

  Next, when it is necessary to register new thermal power plant management item data 1000b stored in the AP server side database 1610 of the thermal power management AP server 1600 or to correct the thermal power plant management item data 1000b. Then, the power plant management item data registration / modification means 1620 registers new thermal power plant management item data 1000b or corrects the thermal power plant management item data 1000b (S12), and at any time via the fifth network 1040. The new thermal power plant management item data 1000b or the modified thermal power plant management item data 1000b is transmitted to the thermal power management DB server 1500 (S13). In addition, the time when registration of the new thermal power plant management item data 1000b or the correction of the thermal power plant management item data 1000b is not particularly limited, and may be appropriately performed as necessary. .

  When the transmitted new thermal power plant management item data 1000b or the modified thermal power plant management item data 1000b is received by the thermal power management DB server 1500, the data matching means 1520 causes the new thermal power plant management item data 1000b to be received. The management item data 1000b or the modified thermal power plant management item data 1000b is matched with the thermal power plant management item data 1000b stored in the DB server side database 1510 (S14).

  In this manner, the thermal power plant management item data 1000b stored in the AP server side database 1610 can be matched with the thermal power plant management item data 1000b stored in the DB server side database 1510.

  When it is necessary to create a form, form data 1631 similar to the form data 30 of the first embodiment is created by the form creation unit 1630 of the thermal power management AP server 1600 (S15). Note that the creation of the form data 1631 does not need to be limited in time, and may be performed as appropriate at an appropriate time.

  As described above, according to the thermal power generation operation management system 1A of the present embodiment, the thermal power generation operation data 1000a and the thermal power plant management item data 1000b can be efficiently collected and managed, and the thermal power generation operation data. A form can be easily created based on 1000a.

  In this embodiment, the data is not encrypted when the thermal power generation operation data 1000a is transmitted to each server or the like. However, the above-described implementation is performed so that the thermal power generation operation data 1000a can be encrypted and transmitted / received. At least any two of the thermal power generation operation terminal 1100, the host computer 1400, and each of the servers 1200, 1300, 1500, and 1600 are provided with encryption / decryption means similar to the terminal-side encryption / decryption means 250 in the first mode. It may also be provided for all. Thereby, thermal power generation operation data 1000a and the like can be transmitted and received safely.

(Other embodiments)
In the first embodiment, the thermal power generation operation data 161 is collected and managed as described above. However, any one of the thermal power generation operation management server 100, the thermal power generation operation terminal 200, or the management data collection server 500, or its Any two or all three of them may be further provided with data updating means for inquiring and correcting the thermal power generation operation data 161 or updating the thermal power generation operation data 161 as necessary. Since the thermal power generation operation data 161 to be inquired / corrected by the data updating means or the thermal power generation operation data 161 to be updated can be updated as necessary, the thermal power generation operation data 161 can be accurately managed.

  In the first embodiment, the thermal power generation operation data 161 input from the thermal power generation operation terminal 200 via the thermal power generation operation data registration unit 220 is always transmitted to the thermal power generation operation management server 100 via the management data collection server 500. However, the thermal power generation operation terminal 200 and the thermal power generation operation management server 100 are connected via a network, and all or part of the thermal power generation operation data 161 input to the thermal power generation operation terminal 200 is directly managed. It may be possible to transmit to the server 100.

  Furthermore, the management data collection server 500 may further include data collection terminal encryption / decryption means for encrypting the thermal power generation operation data 161 to be transmitted and for decrypting the encrypted form data 30 and the like. . By providing the data collection terminal encryption / decryption means, the thermal power generation operation data 1000a and the like can be transmitted and received safely.

  In the first embodiment, when transmitting / receiving thermal power operation data 161 or the like via the first network 10 or the second network 20, the data is encrypted by the terminal side encryption / decryption means 250 or the like. However, if there is no possibility that the thermal power generation operation data 161 etc. will flow out from the thermal power generation operation management system 1 according to the present invention, the terminal side encryption / decryption means 250 is omitted, and the data such as the thermal power generation operation data 161 is stored. Transmission / reception may be performed without encryption.

It is the schematic of the thermal power generation operation management system which concerns on Embodiment 1 of this invention. It is a figure which shows an example of the thermal power generation operation data which concerns on Embodiment 1 of this invention. It is a figure which shows an example of the form data which concern on Embodiment 1 of this invention. It is a figure which shows the sequence of the operation | movement regarding registration of the thermal power generation operation data of the thermal power generation operation management system 1 which concerns on Embodiment 1 of this invention. It is a figure which shows the sequence of the operation | movement regarding preparation of the form data 30 of the thermal power generation operation management system 1 which concerns on Embodiment 1 of this invention. It is the schematic of the thermal power generation operation management system which concerns on Embodiment 2 of this invention. It is a figure which shows the sequence of operation | movement of the thermal power generation operation management system which concerns on Embodiment 2 of this invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1, 1A Thermal power generation operation management system 10, 1010 1st network 20, 1020 2nd network 30, 1631 Form data 100 Thermal power generation operation management server 110 User authentication means 120 Form creation means 130 Data update means 150 Server side encryption Decryption means 160 Thermal power generation operation database 161, 1000a Thermal power generation operation data 170 Registered user authentication database 171 Registered user authentication data 200, 1100 Thermal power generation operation terminal 210 User authentication data input means 211 User authentication data 220, 1110 Thermal power operation data registration means 250 Terminal side encryption / decryption means 500 Management data collection server 510, 1210 Data storage means 1000b Power plant management item data 1030 Third network 1040 4 network 1050 fifth network 1200 plant data receiving server 1300 integrated OA server 1400 host computer 1410 host computer side database 1420 thermal power generation operation data registration / correction means 1500 thermal power operation management DB server 1510 DB server side database 1520 data matching means 1600 Thermal operation management AP server 1610 AP server database 1620 Power plant management item data registration / correction means 1621 Modified thermal power generation operation data 1630 Form creation means

Claims (3)

Thermal power generation operation data for creating thermal power plant form data and thermal power plant management item data for managing thermal power plant management data, and at least one thermal power generation operation terminal for inputting the thermal power generation operation via the network A plant data receiving server that is connected to a terminal and stores the thermal power generation operation data and the thermal power plant management item data and stores the data for a predetermined period; an integrated OA server connected to the plant data receiving server via a network; A host computer connected to the integrated OA server via a network to manage the thermal power generation operation data and the thermal power plant management item data; a thermal power generation operation data connected to the host computer via a network; Thermal power operation management DB server for managing the thermal power plant management item data , Via a network and a thermal management AP server to create the form data together with the connected with the thermal management DB server for managing the thermal power production data and the thermal power plant management item data,
The thermal power generation operation terminal comprises data registration means for inputting the thermal power generation operation data and the thermal power plant management item data,
The plant data receiving server comprises data storage means for storing the thermal power generation operation data and the thermal power plant management item data transmitted from the thermal power generation operation terminal for a predetermined period,
The host computer includes a host computer side database for storing the thermal power generation operation data and the thermal power plant management item data transmitted from the integrated OA server, and thermal power generation operation data registration / registration for correcting and correcting the thermal power generation operation data. Correction means,
The thermal power operation management AP server registers the thermal power plant operation data and the thermal power plant management item data transmitted from the thermal power management DB server, and registers the thermal power plant management item data. Power plant management item registration / correction means to be corrected, and form creation means for creating form data by extracting the thermal power generation operation data from the AP server side database,
The thermal power management DB server includes a database server side database for storing the thermal power generation operation data and the thermal power plant management item data transmitted from the host computer, and the thermal power plant stored in the AP server side database. A thermal power generation operation management system comprising: data matching means for matching management item data with the thermal power plant management item data stored in the DB server side database. 2. The integrated OA server according to claim 1 , wherein the thermal power generation operation data and the thermal power plant management item data are collectively transmitted to the host computer at a predetermined timing, and the host computer is connected to the network within a predetermined period. Registration / modification of the thermal power generation operation data is permitted as necessary from a general office OA personal computer connected to the host computer via the host and managing the host computer, and the host computer is out of the predetermined period. The thermal power operation management AP server permits the thermal power operation management data to be registered / modified as needed from a terminal directly connected to the power station, and the thermal power plant management item data is transmitted from the office general office computer as necessary. Thermal power operation management system characterized by permitting the registration / correction of 3. At least two of the thermal power generation operation terminal, the plant data receiving server, the integrated OA server, the host computer, the thermal power management DB server, and the thermal power management AP server are encrypted / decrypted according to claim 1 or 2 . The thermal power generation operation management system characterized by further comprising a conversion means.

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